Welded wire mesh fabricating machine



Nov. 29, 1955 H. E. GRIESEMER WELDED WIRE MESI-I FABRICATING MACHINE 4 Sheets-Sheet l Filed Dec. 26, 1951 ZUVEHZUIW 6273656526@ Nov. 29, 1955 H, E, GRlEsEMER 2,725,081

WELDED WIRE MESH FABRICATING MACHINE Filed DSC. 26. 1951 4 Sheets-Sheet 2 Nov. 29, 1955 H. E. GRIESEMER WELDED WIRE MESH FABRICATING MACHINE Filed Dec. 26, 1951 Nov. 29, 1955 H. E. GRIESEMER WELDED WIRE MESH FABRICATING MACHINE 4 Sheets-Sheet 4 Filed Dec. 26, 1951 JUVE/ Ui UP f-/f H w w mw, www w wmlmww O m@ v Il l O m @W www V 1 NJ b www@ H United States Patent C) WELDED WIRE MESH FABRICATING MACHINE Harry E. Griesemer, Bloomington, Ill., assignor to Northwestern Steel & Wire Company, Sterling, Ill., a corporation of Illinois Application December 26, 1951, Serial No. 263,285 1 claims. (ci. 14o- 112) This invention relates to improvements in machines for fabricating welded wire mesh and more particularly relates to the welding magazine and guide means for guiding and retaining the stay wires on the magazine prior to engagement with the line wires.

A principal object of my invention is to provide a new and improved means for feeding and retaining the stay wires on a rotating welding magazine, prior to vwelding thereof to the line wires.

Another object of my invention is to provide an improved form of guide and retaining means for guiding and retaining the stay wires of a wire mesh in the stay wire slots of a rotating welding magazine, together with means for arresting travel of the stay wires and preventing the stay wires from rebounding from the welding magazine.

A still further object of my invention is to provide an improved form of welded wire mesh fabricating machine comprising a continuously rotating magazine storing a plurality of stay wires and successively bringing the stay wires into position to be engaged by the line wires of the mesh, together with a simple and improved form of mechanism for continuously supplying the stay wires to the magazine and retaining them thereon for Contact with the line wires without interruption in rotation of the magazine.

A still further object of my invention is to provide a machine for fabricating wire mesh, comprising a plurality of uniformly spacedl stay wires having a plurality of parallel spaced line wires welded thereto, consisting of a continuously rotating stay wire welding magazine, with feeding means continuously supplying the stay wires to the magazine, together with retaining fingers in alignment with the feeding means for guiding and retaining the stay wires to the magazine and initially retaining them therein.

A further object of my invention is to provide a guidel means for the stay: wires of a wire mesh fabricating machine including a revolving magazine having intersecting stay and line wire slots and rolling electrodes-exf tending within thefline wire slots for holding the line wires to the stay wires and welding the line wires thereto in a continuous operation, and including guide ribs extending within the line wire slots of the magazine in direct alignment with theflmechanism for feeding the stay wires thereto, and retaining fingers extending in parallel relation with respect to the ribs within the line wire slots and initially retaining the stay wires to the magazine in radially spaced relation with respect to the bottoms of the to the stay wire slots at one end of said magazine and means at the other end of said magazine for arresting travel of the stay wiresand preventing the stay wires from rebounding from said slots.

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These and other objects of my invention will appear as the following specification proceeds, and with reference to the accompanying drawings, wherein:

Figure 1 is a diagrammatic view in side elevation of a wire mesh fabricating machine having a stay wire retaining and guide means constructed in accordance with my invention embodied therein;

Figure 2 is an enlarged fragmentary vertical sectional View taken transversely through the stay wire magazine and illustrating one form in which the guide and retaining means for the stay wires may be constructed;

Figure 3 is an enlarged fragmentary horizontal sectional view taken through the stay wire magazine with the guide and retaining means for the stay wires shown in horizontal section;

Figure 4 is a bottom view of the stay wire guide and retaining means;

Figure 5 is a transverse sectional view taken substantially along line 55 of Figure 4; and

Figure 6 is a sectional view taken substantially along line 6 6 of Figure 2.

In the embodiment of my invention illustrated in the drawings, the reference numeral 10 indicates the line wires of the mesh, the number and spacing of which may Vary in accordance with the nature of the fabric to be constructed. The line wires 10 are guided to pass over cross or stay wires 11, measured, cut and supplied to a rotating magazine 12 without interruption in rotation of said magazine, and pressed into engagement with said magazine by the line wires 10 and alternate laterally and circumferentially spaced rolling welding electrodes 13-13. The laterally spaced electrodes 13-13 alternately engage the line wires in advance of each other and hold them in engagement with the associated stay wires during welding, as shown in my application Serial No. 143,755, led February 11, 1950, now Patent No. 2,712,837 issued July l2, 1955. The line wires are bonded with the cross wires by resistance welding, the drum itself serving as the other electrode for the Welding operation, as in my aforementioned prior application.

The line wires 10-10 may be trained from individual spools or reels of wire (not shown) downwardly beneath a direction changing roller 16 mounted between side plates 17--17 of the welding machine. From thence the line wires 10-10 may be trained upwardly into engagement vwith a line Wire slacker roller 19. The line wire slacker roller 19 is an eccentrically mounted roller, power driven in timed relation with respect to the feeding and welding operations, to slack the line wires immediately after each welding operation. From the slacker' roller 19, the line vwires 10 are trained upwardly around a direction changing roller 20 and inwardly therefrom to and through a plurality of laterally spaced tubular line wire guides 23 and 24 to the respective welding electrodes.

The tubular line wire guides 23 and 24 are best shown in Figure 2 and are similar to those shown and described in application Serial No. 212,337, led by me on February 23, 1951, now abandoned, and entitled Line Wire Guide Means for Welded Wire Mesh Fabricating Machines, so need not herein be described in detail. Said line wire guides are mounted between support and clamping blocks 25 and 26 and are shown as being clamped thereto by machine screws 227-27. The tubular guides 23 and 24 extend from said blocks along an upper inclined face of an angularly disposed transverse beam -29 having arcuate retaining ribs 30-30 extending inwardly therefrom within line wire receiving slots 34-34 of the welding magazine 12l and generally conforming to Athe form thereof. The ends of the tubular guides 23--23 are tapered to lay the associated line wires lil-10 'on the'stay wires 11-11 indirect alignment with'periphanzgsgosi ial 1ggroovves 35i-35 formed in the welding electrodes `Ina' like manner the tubular guide 24 extends along an alternate line wire slot 34 beyond the guide 23, and is curved to conform to the periphery of the magazine 5 12 lud lay the next adjacentrline wire on' the staywires Ill-#L11 in direct alignment with tl'iecenterofA the next adjacent welding electrode. 13. 'The alternate guide tubes 23'ar1'd 24 thus vextend alongY the. upper inclinedfa'ce o the cros'sbeam 29 and accurately lay the line wires on l0 the stay wires indirect alignment with the centers ofthe respective welding electrodes 13e-#1.3,- in the circumferential Vpath of travelthereof.' The inside YdiameterI of the tubes 23 and Zrfi'inay be relatively small, Vbut'sliould'jbe suciently large to permit the-line Wiresfrto readily pass 15 therethrough` and to straighten and remove; kinks from the line'wires as they pass therethrough.

'l'he'lower clamping block 2,5ffor the line wire guides 23 and 24 is herein shown as being mounted onl ythe top of a cross. trarne member 3.6 secured at its inner end tothe beam 29 and extending rearwardly therefrom and braced adjacent its.- outer end by a brace 37, extending between the side plates 17-17 and connected between the outer lower side of the cross; beam 29 and the under side ofthe support member 36. f 25 The rolling electrodes I3- A13 may be made from a hard drawn copper, a material known to the trade as Mallory Metal, or any other conductor suitable for resistance welding. Each of said electrodes is herein shown as. having a h ub 39 projecting from each side- 30 thereof and as having a shaftv 40; extending therethrough. The shaft 40 is shown as being rotatably mounted at its ends on two parallel spaced arms 41-41extending along opposite sides of the respective electrode. The arms 41;.-41 are pivotally mountedl at'their rear ends on a 35 support leg 50. secured to and dependingl from the: de# pending leg or a transverse bracket member 5 1-, and extending from said bracket member toward the magazine 12. The bracket member 51 is in turn secured toan inclined verticalface of a box-like beam 44, secured be- 40 tween, the frame members 1 717. Separate conductors 45.-45. for each electrode are slidably mounted in guidel slots 46--46 of guide members 47--47 secured toy the brackets 51-51. The lower ends of4 the conductors; -45 are bifurcated and; have concave engaging ends 45 conforming to and engaging the vhubs 39,-'3'9. of electrodes 13-13. A compressionI spring 49 is shown as being seated at the outer end of each; conductor 45p-and yieldably engaging the associated electrode. withvv its line:y wire. l f f 50 The stay wire magazine 12 is` constructed alongline similar to those shown in application Serial No. 143,755; l'ed byme on February ll, 1950. Asbest shown in Figure 3, the magazine 12Y includes generally aplurality of spaced annular webs 53--53 secured to a. transverse,- shafvt 54v in spacedrelation with lrespect thereto by-"welding,` andhaving a cylindrical drum 55 Welded-to theY outer periphery thereof. An annular retaining p latey 56 securedtothe opposite end oftn the drum 55from 'the-stay' wireffeed rolls 57 and is secured-thereto as by machine screws 58-58. l "i A plurality of at annular rings 59 59 are keyed toandY encirclethe drumv 55 in end-to-end relation and: are interposed between the inner face of the retaining ring 56 and an opposite endring 60, The ringjv6,0 isalso keyed to said drum'and is clamped thereto to clamp the, rings159-59 to said drum, as by anl end clamping. ring, 61. The ring 61 is secured tothe opposite end ofy the drum from the ring 56. as by machine screws, 634-63L Thfnuer face of the, endring 56and the adjacentfaces 70 oi the; rings 594-59. are shouldered. and'. receive. guide rings. 651-464 therebetween, iti` spaced' relatii1,v witli"r.e spent! to eachother; The 'spaces .betweenfthe' rings" 64464" form the vcircumferential linewire slots The guide rings`f64-64`are shown asl'iavingloutwarldly 75 4 opening registering slots 65--65 extending entirely across the Aface of `said drum for receivingthe stay wires 11-11 vand supplying said stay wires to the line wires 12-12.

The faces of the slots 65-65 facing the end ring 60 are beveled to permit the stay wires to readily enter said slots. The bottoms of said slots are shown as being in direct alignment with the top surface of the end ring 56, and with the top surfaceof annular segments (S7- 67. Said segments are shown 'as being'suitably secured. inthe spaces betweenthe guide rings 64-64 and form abridge for the current between the rolling electrodes',f for' Welding the line wires to the c'ros's'wiresV ySaid annular segments may be made from the same material as the rolling electrodesv 13--123 ori from any' othersuitable material which may serve` as a resistance welding electrode.

The end ring 61 i's shown as having a plurality of spaced guide apertures 8181 extending therethrough in direct alignment with the slots 65-65. The guide apertures 81-8f1 are herein shown as havingv converging." entering surfaces, converging toward thez'apertures S11-481 t'o'guide the-'wires -thereto during rotative. movement of said magazine.

The transverse shaft 54' is. herein shown as, being suit-` ably j'ournaied in bearing blocks V69-'69, mounted von and extending inwardly from" opposite side frame ment`V bers. 17e-1.7 ofthe' machine, oir angle brackets 70-70; A spur gear 71 is shown as being: secured tol' the'outer. endfof the shaft 54. Said spur gear maybe driven from the main motor: for` the"machine`(`not shown) through' asuitable"geartrain'; in a manner* similar' to that shown inrmy: application Serial No. 1'43-,755.,"above mentioned; andln'ot herein shownr ordeseribed, since it forms no' part o'my'present. invention.

'Flie-'staywires 11-11 are shown as` being: measured, sheared: andrfecl tothe stay wire'. slots 65-65' of' theI magazine 12: without interruption in. thel rotation' of'said magazine by ymeansof a flying shear 73.' The ilying'shear 73 i's like'that shownt and described" in my aforementioned' application Serial No. l43`,75f5,"so ne'ed not herein be" shown orf-described infurther-` detail;

'Asi-shown in Figure* 1;'V power drivenipinch'rolls 74` 741 engage and. feed' the wireto the"shear'73'which is here-` in shown as being in the general form of a rotatablewheel? having aknife (not shown) carried thereby' and movable'into engagement? with the wire to shear. the wire' into; sta-y Wires. of predetermined'len'gths; as inmy'afore#` said` ap1.gli:ativ: n` SerialNo 1433755;` `Atr the 'discharge'. endcf the? shear 73 isa guide member 76 guidingth'e stay wires, cutt tolengthfhetween the-'nips of the powerA driven' stayy Wire feed rolls'- 57i-57, whichl arerpref'erably' pinch rolls: Only'onepinchy rollI 57" is` hereinsliovvfrl,` for' thefpurposev oh simplifyingith'e; drawings. Th'epinch'rolls- 57'-57, are rotatablefabout horizontal'axes' and serve to positively'pulliand'?accelerate the `sheared staywires from the' 'flyingshear 73S and`vv force"'said" stay wires through-l a? guide 'tul5e^80:V 'Ifheguide tube v80ya is shown ashavgingl its? center'4 indirect 'alignment with" the nip "betweeni the"A roll'sli'S'Tl-SZ andf alsof'as 'being directly 'aligned` with the" centers of the guide ape"rtunesj- 81,481' formed in the end gui'd n'g`60'. The pinch ,rovll`s`74,' 74, shear73`fand the'lpi'nchjroll's 57;;57 are driven int'imed. relation with respect :to each otherl and` with respect "to4 the speedv of travelofl the drum. from. a single motor. (net sh'olwn); alsofdrfi'ves.` the. drum. 12. The drivesF are .through geared drive `connections as in my applicationSerial. No. 143,735.5v previously,mentionedand are notl herein shown or. described further, ,since the drive is1 no part Lofmy presentinventiona Ther? stawwire is: thus fed: from'. at continuous reeli ofi ,"avndifcnt: tc'rflengtlrand; positively fpm-- y s cession rrdiestaywre slots 65;@53

100 stay wires have been successively fed to the stay wire receiving slots 65-65 of the magazine 12 in one minute.

Due to the high velocity at which the stay wires enter the stay wire slots 65-65, provision must be made to arrest this rapid travel of the stay wires and also to prevent the stay wires from rebounding from the slots 65-65 by the impact created when being arrested. An anvil 85 is herein shown as being provided for this purpose. As herein shown, the periphery of the end plate 56 slopes toward the shaft 54 in the form of an arc curving inwardly from the bottoms of the stay wire slots 65-65'. The anvil 85 may be mounted on the cross beam 29 and is shown in Figure 3 as extending over the end ring 56 in alignment with the gui-de tube 80, and as having a sloping or curved inner face 86, spaced from the curved outer periphery of the end ring 56 and extending at a steeper angle than the angle of the slope of said end ring. The anvil 85 opens in direct alignment with the guide aperture 81 and the sloping face thereof is engaged by the end of the rapidly moving stay wire 11, and serves to bend the end of said wire to conform generally to the periphery of the end ring 56 as it arrests travel thereof. The bent end of the wire, conforming generally to the periphery of the ring 56, will thus retain the wire to said ring and prevent it from rebounding from the magazine, it being understood that the anvil 85, besides bending the end of the wire, also serves to decelerate the wire and positively stop the wire as its advance end reaches the outer end of the ring 56.

Referring now in particular to the guide and retaining means for the stay wires, as the latter are successively propelled by the pinch rolls 57-57 through the guide 80 and guide apertures 81-81 of the guide ring 60, a plurality of guide and retainer blocks 88-88 are shown as depending from the bottom of the cross beam Z9 in end relation with respect to each other, and as being secured thereto as by machine screws 59-89 (see Figures 3 and 4).

Each retainer block 8S is shown as having a plurality of equally spaced upright ribs 90-90 extending inwardly from the inner vertical face of said block within the line wire slots 34 for a short portion of the depth thereof and also extending vertically therealong. Each rib 90 has an advance beveled face 91, serving to guide the stay wire to pass by the end of said rib. A plurality of guide fingers 93-93 extend along and are secured to the bottom of the retainer block S8 in direct alignment with the ribs 90-90. The retaining fingers 9393 may have some flexibility, although they need not be flexible, and may be secured to the bottom of each block 88 as by machine screws 94-94.

Each retaining finger 93 extends inwardly along the bottom of the block 8S beneath and in alignment with an associated rib 90 and then turns upwardly within the associated slot 34, in parallel spaced relation with respect to said rib. Each retaining finger 93 has a beveled entering face 9S corresponding to the beveled face 91 but extending at an opposite angle from said face, and with said face forming a converging cross or line wire retaining guide extending vertically in direct alignment with the guide tube 80 and the guide apertures 81-81.

The stay wires are thus fed through the guide tube 80 and guide apertures S1 in direct alignment with the space between the outer edges of the ribs 90-90 and the inner edges of the retaining fingers 95-95 into the stay wire slots 65-65, adjacent the lower ends of said ribs and fingers and outwardly from the bottoms of said slots. Rotative movement of the magazine 12 will then successively move the stay wires upwardly along guides formed between said ribs and lingers into engagement with advance inwardly inclined faces 97-97 of the arcuate retaining ribs 30-30 (Figure 2). Engagement of the stay wires with the advance inclined faces 97-97 of the retaining ribs 30-30 during continued rotational movement or travel of the magazine 12 will thus move the stay wires inwardly along the slots 65--65 to the extreme bottoms thereof, in engagement with the electrode segments 67-67, and upwardly along the ribs 30--30 into engagement with the line wires 10-10.

As soon as the cross wires are engaged by the line wires, they will be retained within the slots by the line wires and will be pressed into engagement therewith by the rolling welding electrodes 13-13 for welding thereto, as has previously been described in my application Serial No. 143,755, and no part of my present invention so not further shown or described herein.

lt may be seen from the foregoing that a simple but etiicient feeding guide and retaining means for the stay wires has been provided, for positively feeding the stay wires to the rotating magazine without interruption in rotatable travel thereof and retaining the stay wires therein in a simpler and more positive manner than formerly.

lt may further be seen that the stay wires are initially fed to the stay wire guide slots 65-65 at points spaced outwardly from the bottoms thereof out of contact with the segmental electrodes 67-67, so as to avoid interference therewith, and are retained in this position for a short part of their travel by the retaining fingers 93-93,

and that as they leave said retaining fingers they are then forced inwardly along the slots 65-65 into engagement with the electrode segments '7l-71.

It may still further be seen that the blocks 88;88 and the retaining fingers 93-93 carried thereby may be individually removed and replaced for cleaning and repair, or to clear fouled wires from the magazine in cases of accident.

It will also be apparent that a novel and improved means has been provided for arresting travel of the rapidly traveling stay wires and preventing the stay wires from jumping back out of the stay wire slots 65-65, by engaging the leading ends of the stay wires with an anvil and bending the ends thereof to conform to the outer periphery of the end ring 56, to retain said wires from rebounding from the stay wire slots.

It will be understood that modifications and variations may be effected without departing from the spirit and scope of the novel concepts of the present invention.

l claim as my invention:

l. In a welded wire mesh fabricating machine, a frame having a rotatably driven drum journaled thereon and comprising a stay wire magazine, said drum having a plurality of transverse stay wire carrying slots open to the ends and periphery thereof and also having intersecting circumferential line wire slots extending therearound, means for continuously rotating said magazine, feeding means at one end of said drum and driven in timed relation with respect to the speed of rotation of said drum for successively feeding stay wires endwise into said slots at a relatively high velocity, and an anvil at the opposite end of said magazine from said feeding means having a wire-engaging face engaged by the leading ends of the rapidly traveling stay wires and arresting travel thereof and also simultaneously bending the ends of the stay wires with respect to said drum upon engagement with said anvil, for holding the stay wires from rebounding from said drum. I

2. In a welded wire mesh fabricating machine, a frame having a stay wire magazine journaled thereon comprising a drum having a plurality of transverse stay wire slots open to the periphery thereof and intersecting circumferential line wire slots extending therearound, means for rotatably driving said drum, feeding means driven in timed relation with respect to the speed of rotation of said drum for successively feeding stay wires endwise into said transverse slots, the end of said drum opposite said feeding means converging from the bottoms of said stay wire slots toward the axis of said drum, and a stationary anvil mounted on said frame and extending over said curved end of said drum and having an engaging surface facing said end plate of said drum and generally conforming to ,the form thereof and spaced outwardly ,therefrom for e11- gagement with the yends of said stay wires, .to arrest ,feeding movement thereof ,and at the same time .bend the ends of said stay wires'to conform generally to the form of said .end plate and .retain said stay wires from rebounding from `said slots.

. 3,. A ywelded wire mesh fabricating machine comprising -a .frame having a stay wire magazi-ne journaled thereon comprising a 4drum having a yplurality of transverse stay wire slots open `to the periphery and opposite ends thereof and having intersecting circumferential line wire slots extending therearound, means for continuously rotating said magazine, an annular guide plate at one end of said drum having apertured stay wire guides extending therethrough in alignment with said stay wire slots and converging from the outer to the inner ends thereof, power driven .pinch rolls the nip of which is in direct alignment with said stay wires guides and driven in timed relation with respect to the speed of rotation of said magazine, for projecting the stay wires through said guides and slots without interruption in the speed of travel of said magazine, an end plate for the end of said drum opposite said annular guide plate and extending outwardly and curving inwardly .toward the axis of said drum from the bottoms of said cross wire slots, and an anvil on said frame extending over said end plate in direct alignment with said apertured stay wire guide and having an engaging surface facing said inwardly curving surface of said end plate and spaced radially therefrom and converging toward-said inwardly curving surface as it extends outwardly therealong, said surface being in position to be engaged by the rapidly moving stay wires and arresting movement thereof and bending the ends thereof to conform generally to the form of the inwardly curving surface of said end plate, tov retain said stay wires from rebounding from said slots.

4. In a stay wire guide and retaining means for wire mesh fabricating machines including a rotating magazine having a plurality of uniformly spaced stay wire `slots extending transversely thereof and opening to the periphery and ends thereof and also having a plurality of line wire slots extending circumferentially therearound and intersecting said stay wire slots, feeding means at one end of said magazine disposed in a horizontal plane substantially intersecting the axis thereof and driven in timed relation with respect to the speed of rotation of said magazine, and guide means extending from said feeding means in alignment with said stay wire slots for guiding the stay wires into said slots at points spaced radially from vthe bottoms thereof, a stationary support extending along said magazine, anda plurality of retaining fingers on `said lsupport' spaced therefrom yand extending vertically within saidline -wire slots in parallel spaced relation with respect to said support and in alignment with said guide means and initially retaining said stay wires within said slots at points spaced radially from the bottoms thereof.

5f .In a wire mesh welding machine, a continuously rotating magazine, a pair of power driven `pinch rolls rrotating in timed relation with respect to the lspeed of rotation of said magazine for projecting stay wires to said magazine, means for initially retaining the stay Wires on said rotating magazine, said .magazine having a plurality of uniformly spaced stay wire 4slots extending transversely thereof and opening to the periphery and ends thereof, and .also having a plurality of line wire slots extending circum'ferentially thereof and intersecting said stay wire slots, a support extending horizontally along said magazine beneath .the top thereof, a guide and retainer block depending from said support in close proximity to said. magazine and having a plurality of spaced retaining ribs extending vertically within said-circumferential slots, and,

retaining lingers secured to said block and extending .upwardly along said .ribs within said circumferential slots lin .parallel lspaced relation with respect to said retaining ribs, :the space :between said ribs and fingers forming stay wire guide -retaining .means retaining the stay wires within said transverse slots at points spaced radially from the bottoms :thereof during initial ,feeding vmovement of said stay wires .for welding to the aline wires.

:6. In a wire mesh fabricating machine, a rotatable stay 4wire magazine having a plurality of transverse stay wire slots and circumferential intersecting line wire slots, feeding means at one lend of said magazine comprising a pair of pinch .rolls :driven in timed .relation with respect to -the speed of rotation of said .magazine .for successively feeding stay wires to said slots during rotation of Isaid magazine, .and retaining means for said stay wires extending along said magazine .in alignment with said feeding means comprising a .horizontal support extending along said magazine, aplurality of guide and retainer blocksmounted on said support in end -to .end relation with respect to each other for .ready .removal therefrornand :having guide and retaining ribs extending within said circumferential slots and retaining :fingers secured thereto and extending within said circumferential .slots in parallel spaced relation with respect to said ribs.

7. In ra machine .for fabricating welded wire mesh consisting of a .plurality of uniformly spaced .stay wires having a plurality .of Aparallel spaced line wires welded thereto, a frame, a -stay wire magazine journaled in said frameand having la plurality 4of stay wire slots extending thereacross and a plurality of circumferential line wire slots intersecting said stay wire slots, means vfor -rotatably driving 'said magazine, 4a plurality of laterally spaced .rolling electrodes extending within said circumferential slots for `engaging the line wires with lthe stay .wires and welding .the line wires thereto, ymeans guiding the .line wires to said yrolling electrodes, -stay wire feeding and guide -means atenei-end of said magazine in alignment with said stay wire slots and including a `pair of power driven pinch rolls .rotating in timed relation with respect to the speedof 4rotation of said magazine, means initially retaining said stay wires within saidstay wire slots and during travel thereof into engagement with said ,line wires, including a horizontal support extending along .said magazine beneath the top thereof and having a plurality Aof spaced .ribs extending within and vertically along said circumferential Aslots and retaining `,fingers -secured thereto and extending upwardly within saidlcircumferential slots in parallel .spaced relation with respect to said ribs, and. means for arresting `travel 0f said stay Wires during insertion thereof 'between l.said ribs and fingers and preventing said -stay Wires from rebounding from said lingers, including .a stationary anvil extending along thetopposite side of said magazinefrom said pinch rolls ,and in substantial alignment therewith, and having an inwardly turned engaging surface engaged by the leading ends of the stay Wires for .arresting `travel thereofand `for bending inwardly the ends thereof.

References .Cited in the file of this patent UNITED` STAT-ES PATENTS 1,175,516 French- `Mar. 14, .1916 '1,367,212 Southwick Feb. l, .1921 1,915,184 Cosgrove lune 20, 1933 2,046,461 Johnson July 7, 19,36 2,294,369 Harter Sept. 1, 1.942 2,390,174 Roemer Dec. 4, Y1945 2,405,257 Ke'hxer' Allg. 6, 1.946 2,410,766 Wickwire Nov. 5,. 1946 2,487,392 SotthWiCk NOV. 8`, .1949 

